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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- P A R . U T I L -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2011, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- -- for more details. You should have received a copy of the GNU General -- -- Public License distributed with GNAT; see file COPYING3. If not, go to -- -- http://www.gnu.org/licenses for a complete copy of the license. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Csets; use Csets; with Namet.Sp; use Namet.Sp; with Stylesw; use Stylesw; with Uintp; use Uintp; with GNAT.Spelling_Checker; use GNAT.Spelling_Checker; separate (Par) package body Util is --------------------- -- Bad_Spelling_Of -- --------------------- function Bad_Spelling_Of (T : Token_Type) return Boolean is Tname : constant String := Token_Type'Image (T); -- Characters of token name S : String (1 .. Tname'Last - 4); -- Characters of token name folded to lower case, omitting TOK_ at start M1 : String (1 .. 42) := "incorrect spelling of keyword ************"; M2 : String (1 .. 44) := "illegal abbreviation of keyword ************"; -- Buffers used to construct error message P1 : constant := 30; P2 : constant := 32; -- Starting subscripts in M1, M2 for keyword name SL : constant Natural := S'Length; -- Length of expected token name excluding TOK_ at start begin if Token /= Tok_Identifier then return False; end if; for J in S'Range loop S (J) := Fold_Lower (Tname (J + 4)); end loop; Get_Name_String (Token_Name); -- A special check for case of PROGRAM used for PROCEDURE if T = Tok_Procedure and then Name_Len = 7 and then Name_Buffer (1 .. 7) = "program" then Error_Msg_SC -- CODEFIX ("PROCEDURE expected"); Token := T; return True; -- A special check for an illegal abbreviation elsif Name_Len < S'Length and then Name_Len >= 4 and then Name_Buffer (1 .. Name_Len) = S (1 .. Name_Len) then for J in 1 .. S'Last loop M2 (P2 + J - 1) := Fold_Upper (S (J)); end loop; Error_Msg_SC (M2 (1 .. P2 - 1 + S'Last)); Token := T; return True; end if; -- Now we go into the full circuit to check for a misspelling -- Never consider something a misspelling if either the actual or -- expected string is less than 3 characters (before this check we -- used to consider i to be a misspelled if in some cases!) if SL < 3 or else Name_Len < 3 then return False; -- Special case: prefix matches, i.e. the leading characters of the -- token that we have exactly match the required keyword. If there -- are at least two characters left over, assume that we have a case -- of two keywords joined together which should not be joined. elsif Name_Len > SL + 1 and then S = Name_Buffer (1 .. SL) then Scan_Ptr := Token_Ptr + S'Length; Error_Msg_S ("|missing space"); Token := T; return True; end if; if Is_Bad_Spelling_Of (Name_Buffer (1 .. Name_Len), S) then for J in 1 .. S'Last loop M1 (P1 + J - 1) := Fold_Upper (S (J)); end loop; Error_Msg_SC -- CODFIX (M1 (1 .. P1 - 1 + S'Last)); Token := T; return True; else return False; end if; end Bad_Spelling_Of; ---------------------- -- Check_95_Keyword -- ---------------------- -- On entry, the caller has checked that current token is an identifier -- whose name matches the name of the 95 keyword New_Tok. procedure Check_95_Keyword (Token_95, Next : Token_Type) is Scan_State : Saved_Scan_State; begin Save_Scan_State (Scan_State); -- at identifier/keyword Scan; -- past identifier/keyword if Token = Next then Restore_Scan_State (Scan_State); -- to identifier Error_Msg_Name_1 := Token_Name; Error_Msg_SC ("(Ada 83) keyword* cannot be used!"); Token := Token_95; else Restore_Scan_State (Scan_State); -- to identifier end if; end Check_95_Keyword; ---------------------- -- Check_Bad_Layout -- ---------------------- procedure Check_Bad_Layout is begin if RM_Column_Check and then Token_Is_At_Start_Of_Line and then Start_Column <= Scope.Table (Scope.Last).Ecol then Error_Msg_BC -- CODEFIX ("(style) incorrect layout"); end if; end Check_Bad_Layout; -------------------------- -- Check_Future_Keyword -- -------------------------- procedure Check_Future_Keyword is begin -- Ada 2005 (AI-284): Compiling in Ada 95 mode we warn that INTERFACE, -- OVERRIDING, and SYNCHRONIZED are new reserved words. if Ada_Version = Ada_95 and then Warn_On_Ada_2005_Compatibility then if Token_Name = Name_Overriding or else Token_Name = Name_Synchronized or else (Token_Name = Name_Interface and then Prev_Token /= Tok_Pragma) then Error_Msg_N ("& is a reserved word in Ada 2005?", Token_Node); end if; end if; -- Similarly, warn about Ada 2012 reserved words if Ada_Version in Ada_95 .. Ada_2005 and then Warn_On_Ada_2012_Compatibility then if Token_Name = Name_Some then Error_Msg_N ("& is a reserved word in Ada 2012?", Token_Node); end if; end if; -- Note: we deliberately do not emit these warnings when operating in -- Ada 83 mode because in that case we assume the user is building -- legacy code anyway and is not interested in updating Ada versions. end Check_Future_Keyword; -------------------------- -- Check_Misspelling_Of -- -------------------------- procedure Check_Misspelling_Of (T : Token_Type) is begin if Bad_Spelling_Of (T) then null; end if; end Check_Misspelling_Of; ----------------------------- -- Check_Simple_Expression -- ----------------------------- procedure Check_Simple_Expression (E : Node_Id) is begin if Expr_Form = EF_Non_Simple then Error_Msg_N ("this expression must be parenthesized", E); end if; end Check_Simple_Expression; --------------------------------------- -- Check_Simple_Expression_In_Ada_83 -- --------------------------------------- procedure Check_Simple_Expression_In_Ada_83 (E : Node_Id) is begin if Expr_Form = EF_Non_Simple then if Ada_Version = Ada_83 then Error_Msg_N ("(Ada 83) this expression must be parenthesized!", E); end if; end if; end Check_Simple_Expression_In_Ada_83; ------------------------ -- Check_Subtype_Mark -- ------------------------ function Check_Subtype_Mark (Mark : Node_Id) return Node_Id is begin if Nkind (Mark) = N_Identifier or else Nkind (Mark) = N_Selected_Component or else (Nkind (Mark) = N_Attribute_Reference and then Is_Type_Attribute_Name (Attribute_Name (Mark))) or else Mark = Error then return Mark; else Error_Msg ("subtype mark expected", Sloc (Mark)); return Error; end if; end Check_Subtype_Mark; ------------------- -- Comma_Present -- ------------------- function Comma_Present return Boolean is Scan_State : Saved_Scan_State; Paren_Count : Nat; begin -- First check, if a comma is present, then a comma is present! if Token = Tok_Comma then T_Comma; return True; -- If we have a right paren, then that is taken as ending the list -- i.e. no comma is present. elsif Token = Tok_Right_Paren then return False; -- If pragmas, then get rid of them and make a recursive call -- to process what follows these pragmas. elsif Token = Tok_Pragma then P_Pragmas_Misplaced; return Comma_Present; -- At this stage we have an error, and the goal is to decide on whether -- or not we should diagnose an error and report a (non-existent) -- comma as being present, or simply to report no comma is present -- If we are a semicolon, then the question is whether we have a missing -- right paren, or whether the semicolon should have been a comma. To -- guess the right answer, we scan ahead keeping track of the paren -- level, looking for a clue that helps us make the right decision. -- This approach is highly accurate in the single error case, and does -- not make bad mistakes in the multiple error case (indeed we can't -- really make a very bad decision at this point in any case). elsif Token = Tok_Semicolon then Save_Scan_State (Scan_State); Scan; -- past semicolon -- Check for being followed by identifier => which almost certainly -- means we are still in a parameter list and the comma should have -- been a semicolon (such a sequence could not follow a semicolon) if Token = Tok_Identifier then Scan; if Token = Tok_Arrow then goto Assume_Comma; end if; end if; -- If that test didn't work, loop ahead looking for a comma or -- semicolon at the same parenthesis level. Always remember that -- we can't go badly wrong in an error situation like this! Paren_Count := 0; -- Here is the look ahead loop, Paren_Count tells us whether the -- token we are looking at is at the same paren level as the -- suspicious semicolon that we are trying to figure out. loop -- If we hit another semicolon or an end of file, and we have -- not seen a right paren or another comma on the way, then -- probably the semicolon did end the list. Indeed that is -- certainly the only single error correction possible here. if Token = Tok_Semicolon or else Token = Tok_EOF then Restore_Scan_State (Scan_State); return False; -- A comma at the same paren level as the semicolon is a strong -- indicator that the semicolon should have been a comma, indeed -- again this is the only possible single error correction. elsif Token = Tok_Comma then exit when Paren_Count = 0; -- A left paren just bumps the paren count elsif Token = Tok_Left_Paren then Paren_Count := Paren_Count + 1; -- A right paren that is at the same paren level as the semicolon -- also means that the only possible single error correction is -- to assume that the semicolon should have been a comma. If we -- are not at the same paren level, then adjust the paren level. elsif Token = Tok_Right_Paren then exit when Paren_Count = 0; Paren_Count := Paren_Count - 1; end if; -- Keep going, we haven't made a decision yet Scan; end loop; -- If we fall through the loop, it means that we found a terminating -- right paren or another comma. In either case it is reasonable to -- assume that the semicolon was really intended to be a comma. Also -- come here for the identifier arrow case. <<Assume_Comma>> Restore_Scan_State (Scan_State); Error_Msg_SC -- CODEFIX ("|"";"" should be "","""); Scan; -- past the semicolon return True; -- If we are not at semicolon or a right paren, then we base the -- decision on whether or not the next token can be part of an -- expression. If not, then decide that no comma is present (the -- caller will eventually generate a missing right parent message) elsif Token in Token_Class_Eterm then return False; -- Otherwise we assume a comma is present, even if none is present, -- since the next token must be part of an expression, so if we were -- at the end of the list, then there is more than one error present. else T_Comma; -- to give error return True; end if; end Comma_Present; ----------------------- -- Discard_Junk_List -- ----------------------- procedure Discard_Junk_List (L : List_Id) is pragma Warnings (Off, L); begin null; end Discard_Junk_List; ----------------------- -- Discard_Junk_Node -- ----------------------- procedure Discard_Junk_Node (N : Node_Id) is pragma Warnings (Off, N); begin null; end Discard_Junk_Node; ------------ -- Ignore -- ------------ procedure Ignore (T : Token_Type) is begin while Token = T loop if T = Tok_Comma then Error_Msg_SC -- CODEFIX ("|extra "","" ignored"); elsif T = Tok_Left_Paren then Error_Msg_SC -- CODEFIX ("|extra ""("" ignored"); elsif T = Tok_Right_Paren then Error_Msg_SC -- CODEFIX ("|extra "")"" ignored"); elsif T = Tok_Semicolon then Error_Msg_SC -- CODEFIX ("|extra "";"" ignored"); elsif T = Tok_Colon then Error_Msg_SC -- CODEFIX ("|extra "":"" ignored"); else declare Tname : constant String := Token_Type'Image (Token); begin Error_Msg_SC ("|extra " & Tname (5 .. Tname'Last) & "ignored"); end; end if; Scan; -- Scan past ignored token end loop; end Ignore; ---------------------------- -- Is_Reserved_Identifier -- ---------------------------- function Is_Reserved_Identifier (C : Id_Check := None) return Boolean is begin if not Is_Reserved_Keyword (Token) then return False; else declare Ident_Casing : constant Casing_Type := Identifier_Casing (Current_Source_File); Key_Casing : constant Casing_Type := Keyword_Casing (Current_Source_File); begin -- If the casing of identifiers and keywords is different in -- this source file, and the casing of this token matches the -- keyword casing, then we return False, since it is pretty -- clearly intended to be a keyword. if Ident_Casing = Unknown or else Key_Casing = Unknown or else Ident_Casing = Key_Casing or else Determine_Token_Casing /= Key_Casing then return True; -- Here we have a keyword written clearly with keyword casing. -- In default mode, we would not be willing to consider this as -- a reserved identifier, but if C is set, we may still accept it elsif C /= None then declare Scan_State : Saved_Scan_State; OK_Next_Tok : Boolean; begin Save_Scan_State (Scan_State); Scan; if Token_Is_At_Start_Of_Line then return False; end if; case C is when None => raise Program_Error; when C_Comma_Right_Paren => OK_Next_Tok := Token = Tok_Comma or else Token = Tok_Right_Paren; when C_Comma_Colon => OK_Next_Tok := Token = Tok_Comma or else Token = Tok_Colon; when C_Do => OK_Next_Tok := Token = Tok_Do; when C_Dot => OK_Next_Tok := Token = Tok_Dot; when C_Greater_Greater => OK_Next_Tok := Token = Tok_Greater_Greater; when C_In => OK_Next_Tok := Token = Tok_In; when C_Is => OK_Next_Tok := Token = Tok_Is; when C_Left_Paren_Semicolon => OK_Next_Tok := Token = Tok_Left_Paren or else Token = Tok_Semicolon; when C_Use => OK_Next_Tok := Token = Tok_Use; when C_Vertical_Bar_Arrow => OK_Next_Tok := Token = Tok_Vertical_Bar or else Token = Tok_Arrow; end case; Restore_Scan_State (Scan_State); if OK_Next_Tok then return True; end if; end; end if; end; end if; -- If we fall through it is not a reserved identifier return False; end Is_Reserved_Identifier; ---------------------- -- Merge_Identifier -- ---------------------- procedure Merge_Identifier (Prev : Node_Id; Nxt : Token_Type) is begin if Token /= Tok_Identifier then return; end if; declare S : Saved_Scan_State; T : Token_Type; begin Save_Scan_State (S); Scan; T := Token; Restore_Scan_State (S); if T /= Nxt then return; end if; end; -- Check exactly one space between identifiers if Source (Token_Ptr - 1) /= ' ' or else Int (Token_Ptr) /= Int (Prev_Token_Ptr) + Length_Of_Name (Chars (Prev)) + 1 then return; end if; -- Do the merge Get_Name_String (Chars (Token_Node)); declare Buf : constant String (1 .. Name_Len) := Name_Buffer (1 .. Name_Len); begin Get_Name_String (Chars (Prev)); Add_Char_To_Name_Buffer ('_'); Add_Str_To_Name_Buffer (Buf); Set_Chars (Prev, Name_Find); end; Error_Msg_Node_1 := Prev; Error_Msg_SC ("unexpected identifier, possibly & was meant here"); Scan; end Merge_Identifier; ------------------- -- Next_Token_Is -- ------------------- function Next_Token_Is (Tok : Token_Type) return Boolean is Scan_State : Saved_Scan_State; Result : Boolean; begin Save_Scan_State (Scan_State); Scan; Result := (Token = Tok); Restore_Scan_State (Scan_State); return Result; end Next_Token_Is; ------------------- -- No_Constraint -- ------------------- procedure No_Constraint is begin if Token in Token_Class_Consk then Error_Msg_SC ("constraint not allowed here"); Discard_Junk_Node (P_Constraint_Opt); end if; end No_Constraint; --------------------- -- Pop_Scope_Stack -- --------------------- procedure Pop_Scope_Stack is begin pragma Assert (Scope.Last > 0); Scope.Decrement_Last; if Debug_Flag_P then Error_Msg_Uint_1 := UI_From_Int (Scope.Last); Error_Msg_SC ("decrement scope stack ptr, new value = ^!"); end if; end Pop_Scope_Stack; ---------------------- -- Push_Scope_Stack -- ---------------------- procedure Push_Scope_Stack is begin Scope.Increment_Last; if Style_Check_Max_Nesting_Level and then Scope.Last = Style_Max_Nesting_Level + 1 then Error_Msg ("(style) maximum nesting level exceeded", First_Non_Blank_Location); end if; Scope.Table (Scope.Last).Junk := False; Scope.Table (Scope.Last).Node := Empty; if Debug_Flag_P then Error_Msg_Uint_1 := UI_From_Int (Scope.Last); Error_Msg_SC ("increment scope stack ptr, new value = ^!"); end if; end Push_Scope_Stack; ---------------------- -- Separate_Present -- ---------------------- function Separate_Present return Boolean is Scan_State : Saved_Scan_State; begin if Token = Tok_Separate then return True; elsif Token /= Tok_Identifier then return False; else Save_Scan_State (Scan_State); Scan; -- past identifier if Token = Tok_Semicolon then Restore_Scan_State (Scan_State); return Bad_Spelling_Of (Tok_Separate); else Restore_Scan_State (Scan_State); return False; end if; end if; end Separate_Present; -------------------------- -- Signal_Bad_Attribute -- -------------------------- procedure Signal_Bad_Attribute is begin Error_Msg_N ("unrecognized attribute&", Token_Node); -- Check for possible misspelling Error_Msg_Name_1 := First_Attribute_Name; while Error_Msg_Name_1 <= Last_Attribute_Name loop if Is_Bad_Spelling_Of (Token_Name, Error_Msg_Name_1) then Error_Msg_N -- CODEFIX ("\possible misspelling of %", Token_Node); exit; end if; Error_Msg_Name_1 := Error_Msg_Name_1 + 1; end loop; end Signal_Bad_Attribute; ----------------------------- -- Token_Is_At_End_Of_Line -- ----------------------------- function Token_Is_At_End_Of_Line return Boolean is S : Source_Ptr; begin -- Skip past blanks and horizontal tabs S := Scan_Ptr; while Source (S) = ' ' or else Source (S) = ASCII.HT loop S := S + 1; end loop; -- We are at end of line if at a control character (CR/LF/VT/FF/EOF) -- or if we are at the start of an end of line comment sequence. return Source (S) < ' ' or else (Source (S) = '-' and then Source (S + 1) = '-'); end Token_Is_At_End_Of_Line; ------------------------------- -- Token_Is_At_Start_Of_Line -- ------------------------------- function Token_Is_At_Start_Of_Line return Boolean is begin return (Token_Ptr = First_Non_Blank_Location or else Token = Tok_EOF); end Token_Is_At_Start_Of_Line; end Util;
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